CN111958656B

CN111958656B - Biological enzyme raw material processing device

Info

Publication number: CN111958656B
Application number: CN202010855111.6A
Authority: CN
Inventors: 王永斌
Original assignee: Shanghai Weidong E Commerce Co ltd
Current assignee: Shanghai Weidong E Commerce Co ltd
Priority date: 2020-08-24
Filing date: 2020-08-24
Publication date: 2022-01-18
Anticipated expiration: 2040-08-24
Also published as: CN111958656A

Abstract

The invention relates to the field of biological enzymes, in particular to a processing device for biological enzyme raw materials. The technical problems of the invention are as follows: provides a processing device for biological enzyme raw materials. The technical scheme is as follows: a processing device for biological enzyme raw materials comprises a working frame plate, a control display screen, a feeding ladder, a cutting mechanism, a conveying mechanism, a steering mechanism and a seed removing mechanism; the side of the working frame plate is connected with the control display screen through a supporting seat. The pawpaw milk extraction method achieves the effects that pawpaw seeds are dug out in advance before the pawpaw is extracted, the collected pawpaw seeds can be treated and then used as medicine, pawpaw is utilized to the maximum degree, the purity of the milk extracted from the pawpaw is greatly improved, impurities contained in the prepared papain are reduced, the activity of enzyme is improved, and the quality of the produced papain is greatly improved.

Description

Biological enzyme raw material processing device

Technical Field

The invention relates to the field of biological enzymes, in particular to a processing device for biological enzyme raw materials.

Background

Papaya is also known as papaya, milk melon, and papaw, and is a very green and soft wood small tree in tropical and subtropical zone, with 8-10 m high enough to be milky; the stem is not branched or sometimes branched at the lesion, and has a helically arranged pettitoes mark. The fruit grows on the tree and looks like melon, so it is named as pawpaw. The papain is a low-specificity proteolytic enzyme contained in the papaya and widely exists in roots, stems, leaves and fruits of the papaya, the active center of the papain contains cysteine, the papain belongs to thiol protease, and the papain has the characteristics of high enzyme activity, good thermal stability, nature, sanitation, safety and the like, so that the papain is widely applied to the industries of food, medicine, feed, daily chemicals, leather, textile and the like.

The existing papain is mainly extracted by emulsion from immature fruits of pawpaw, however, pawpaw seeds in the immature fruits of pawpaw are white and are in a small and soft state, the white pawpaw seeds are easy to be mixed into milk and are difficult to separate when milk is extracted from pawpaw, and the pawpaw seeds are easy to break in the process of squeezing and extracting the emulsion from pawpaw, so that the juice in the pawpaw seeds flows into the emulsion force, impurities are mixed in the prepared papain, the activity of the produced protease is extremely low, and the production quality requirement cannot be met.

In combination with the above problems, there is a need for a processing device for biological enzyme raw material to solve the above problems.

Disclosure of Invention

In order to overcome the defects that the existing papain extraction mainly comprises the step of carrying out emulsion extraction on immature fruits of pawpaw, however, pawpaw seeds in the immature fruits of pawpaw are white and are in a small and soft state, the white pawpaw seeds are easy to be mixed into milk and are difficult to separate when milk extraction is carried out on pawpaw, and the pawpaw seeds are easy to break in the process of squeezing and extracting the milk from the pawpaw, so that juice in the pawpaw seeds flows into the milk power, impurities are mixed in the prepared papain, the activity of the produced protease is extremely low, and the production quality requirement cannot be met, the invention has the technical problems that: provides a processing device for biological enzyme raw materials.

The technical scheme is as follows: a processing device for biological enzyme raw materials comprises a working frame plate, a control display screen, a feeding ladder, a cutting mechanism, a conveying mechanism, a steering mechanism and a seed removing mechanism; the side surface of the working frame plate is connected with the control display screen through a supporting seat; a feeding ladder is arranged on one side of the working frame plate, which is far away from the control display screen; the working frame plate is connected with the cutting mechanism; the working frame plate is connected with the conveying mechanism; the working frame plate is connected with a steering mechanism; the working frame plate is connected with the seed removing mechanism; the cutting mechanism is connected with the conveying mechanism; the conveying mechanism is connected with the steering mechanism; the conveying mechanism is connected with the seed removing mechanism;

the cutting mechanism comprises a first driving wheel, a first conveying belt, a first electric push rod, a first underframe, a first sliding sleeve, a first sliding rod, a second electric push rod, a first tripod, a first connecting plate, a first separation thorn plate, a second connecting plate, a second tripod, a third electric push rod, a second underframe, a second sliding sleeve, a second sliding rod, a fourth electric push rod, a cutting table, a second driving wheel and a baffle plate; the first transmission wheel axle is in transmission connection with the first transmission belt through a transmission rod; a first electric push rod is arranged below the first conveying belt; the first electric push rod is inserted into the first chassis; two groups of first sliding sleeves are arranged above the first underframe; the two first sliding sleeves are in sliding connection with the first sliding rod; a second electric push rod and a first tripod are sequentially arranged below the first underframe; the first tripod is connected with the first connecting plate; the first connecting plate is welded with the first separation thorn plate; a second separation stab plate is arranged on one side, far away from the first connecting plate, of the first separation stab plate; the second separation thorn plate and the second connection plate are welded; the upper part of the second connecting plate is connected with a second tripod; the second tripod is connected with the third electric push rod; the second tripod and the third electric push rod are connected with the second underframe; two groups of second sliding sleeves are arranged above the second underframe; the two second sliding sleeves are in sliding connection with the second sliding rod; the side surface of the second underframe is spliced with a fourth electric push rod; a baffle is arranged on the side surface of the first conveyor belt; a cutting table is arranged below the baffle; a second driving wheel is arranged on the front side of the cutting table; the first driving wheel is connected with the conveying mechanism; the first conveyor belt is connected with the working frame plate; the first electric push rod is connected with the working frame plate; the first sliding rod is connected with the working frame plate; the second sliding rod is connected with the working frame plate; the fourth electric push rod is connected with the working frame plate; the cutting table is connected with the working frame plate; the second driving wheel is connected with the conveying mechanism; the baffle is connected with the working frame plate;

The conveying mechanism comprises a stepping motor, a third driving wheel, a fourth driving wheel, a fifth electric push rod, a fifth driving wheel, a second conveyor belt, a sixth driving wheel, a seventh driving wheel and an eighth driving wheel; the stepping motor is rotationally connected with the third driving wheel through an output shaft; the outer ring surface of the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the fourth driving wheel is connected with a fifth electric push rod through a supporting seat; the outer ring surface of the third driving wheel is in transmission connection with the fifth driving wheel through a belt; the outer ring surface of the fourth driving wheel is in transmission connection with the fifth driving wheel through a belt; the axis of the fifth driving wheel is in transmission connection with the second conveying belt through a driving rod; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the second conveyor belt is in transmission connection with a sixth transmission wheel; the outer ring surface of the third driving wheel is in transmission connection with the seventh driving wheel through a belt; the axle center of the seventh driving wheel is rotationally connected with the eighth driving wheel through a driving rod; the stepping motor is connected with the working frame plate; the fifth electric push rod is connected with the working frame plate; the fifth driving wheel is connected with the first driving wheel; the second conveyor belt is connected with the seed removing mechanism; the seventh transmission wheel is connected with the steering mechanism; the eighth driving wheel is connected with the second driving wheel.

More preferably, the steering mechanism comprises a ninth transmission wheel, a first bevel gear, a second bevel gear, a first column gear, an inner gear ring sleeve, a third linkage plate, a sixth electric push rod, a second column gear, a tenth transmission wheel, an eleventh transmission wheel, a flat gear, a third column gear, a fourth linkage plate, a steering frame and a seventh electric push rod; the axis of the ninth driving wheel is rotationally connected with the first bevel gear through a driving rod; the first bevel gear is meshed with the second bevel gear; the second bevel gear hub is rotationally connected with the first cylindrical gear through a transmission rod; the outer surface of the first column gear is meshed with the inner gear sleeve; the inner gear ring sleeve is spliced with the third connecting plate; the third connecting plate is inserted with a sixth electric push rod; a second column gear is arranged below the first column gear; the gear core of the second column is rotationally connected with the tenth driving wheel through a driving rod; the outer ring surface of the tenth driving wheel is in transmission connection with the eleventh driving wheel through a belt; the axis of the eleventh transmission wheel is rotationally connected with the flat gear through a transmission rod; the flat gear is meshed with the third column gear; the third column gear is inserted with the fourth connecting plate; the third column gear shaft core is rotationally connected with the steering frame through a transmission rod; the fourth connecting plate is inserted with a seventh electric push rod; the ninth driving wheel is connected with the seventh driving wheel; the ninth driving wheel is connected with the working frame plate through a supporting seat; the sixth electric push rod is connected with the working frame plate; the seventh electric push rod is connected with the working frame plate.

More preferably, the seed removing mechanism comprises an eighth electric push rod, a fixed fork plate, a fixed frame, a limiting plate, a cutting bottom plate, a first connecting rod, a second connecting rod, a ninth electric push rod, a cambered surface blade disc, a first connecting frame, a second connecting frame, a twelfth driving wheel, a first storage cabin and a second storage cabin; the eighth electric push rod is inserted into the fixed fork plate; a fixing frame is arranged below the fixed fork plate; a limiting plate is arranged below the fixing frame; a cutting bottom plate is arranged below the limiting plate; the cutting bottom plate is in transmission connection with the first connecting rod; the first connecting rod is in transmission connection with the second connecting rod; the second connecting rod is inserted with the ninth electric push rod; a cambered surface blade disc is arranged below the cutting bottom plate; the cambered surface cutting edge disc is welded with the first connecting frame; the first connecting frame is in transmission connection with the second connecting frame; the second connecting frame is in transmission connection with a twelfth driving wheel; the cutting bottom plate is connected with the first storage cabin; a second storage cabin is arranged on the side surface of the first storage cabin; the eighth electric push rod is connected with the working frame plate; the fixed frame is connected with the working frame plate; the ninth electric push rod is connected with the working frame plate; the first connecting frame is connected with the working frame plate; the second connecting frame is connected with the working frame plate; the twelfth driving wheel is connected with the second conveyor belt; the first storage cabin is connected with the working frame plate; the second storage compartment is connected with the working frame plate.

More preferably, the cutting table comprises a third bevel gear, a fourth bevel gear, a thirteenth driving wheel, a fourteenth driving wheel, a disc, a third connecting rod, a sliding plate, a sliding rail, a cutting saw blade and a supporting bottom plate; the third bevel gear is meshed with the fourth bevel gear; the axle center of the fourth bevel gear is rotationally connected with a thirteenth driving wheel through a transmission rod; the outer ring surface of the thirteenth driving wheel is in transmission connection with the fourteenth driving wheel through a belt; the shaft center of the fourteenth driving wheel is rotationally connected with the disc through a driving rod; the disc is in transmission connection with the third connecting rod; the third connecting rod is in transmission connection with the sliding plate; the sliding plate is connected with the sliding rail in a sliding manner; the sliding plate is welded with the cutting saw blade; the sliding rail is welded with the supporting bottom plate; the fourteenth driving wheel is connected with the supporting bottom plate through a supporting seat; the third bevel gear is connected with the second transmission wheel; the supporting bottom plate is connected with the working frame plate.

More preferably, the steering frame is a rectangular parallelepiped recess with the notch facing downward.

More preferably, three groups of fork knives are arranged below the fixed fork plate, and the length of the middle group is shorter than that of the two groups beside.

More preferably, the upper surface of the cambered surface cutting edge disc is a circular arc surface.

The beneficial effects are that: the method aims to solve the problems that the existing papain extraction mainly comprises the steps of performing emulsion extraction on immature fruits of pawpaw, however, pawpaw seeds in the immature fruits of pawpaw are white and are in a small and soft state, the white pawpaw seeds are easy to be mixed into milk and are difficult to separate when milk extraction is performed on pawpaw, the pawpaw seeds are easy to break in the process of squeezing and extracting the milk from the pawpaw, and then juice in the pawpaw seeds flows into the milk power, so that impurities are mixed in the prepared papain, the activity of the produced papain is extremely low, and the production quality requirement cannot be met;

a cutting mechanism, a conveying mechanism, a steering mechanism and a seed removing mechanism are designed, an operator firstly places pawpaw to be processed on a first conveying belt through a feeding ladder, a stepping motor is started, then the pawpaw is conveyed into the cutting mechanism through the first conveyor belt, and then the oval pawpaw is cut into halves by the cutting mechanism with the long edge as a cutting line, and half of the pawpaw is placed on the second conveyor belt in a state that the pulp faces downwards and the peel faces upwards, then the cut half pawpaw is conveyed to a designated position through the conveying mechanism, the cut half pawpaw is turned to a state that the long edge is parallel to the conveying direction of the second conveying belt through the turning mechanism, then moving half pawpaw into a seed removing mechanism, and digging out pawpaw seeds carried under the half pawpaw through the seed removing mechanism to obtain separated pawpaw pulp and pawpaw seeds;

The pawpaw is dug out pawpaw seeds in advance before the emulsion is extracted, and then the collected pawpaw seeds can be treated and used as medicine, so that the pawpaw is utilized to the maximum extent, the purity of the emulsion extracted from the pawpaw is greatly improved, impurities contained in the prepared papain are reduced, the activity of the papain is increased, and the quality of the produced papain is greatly improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the cutting mechanism of the present invention;

FIG. 3 is a schematic view of the conveying mechanism of the present invention;

FIG. 4 is a schematic structural view of a steering mechanism of the present invention;

FIG. 5 is a schematic view of the seed removal mechanism of the present invention;

FIG. 6 is a right side view of the cutting station of the present invention.

The parts are labeled as follows: 1. working frame plate, 2, control display screen, 3, loading ladder, 4, cutting mechanism, 5, conveying mechanism, 6, steering mechanism, 7, seed removing mechanism, 401, first driving wheel, 402, first conveyor belt, 403, first electric push rod, 404, first underframe, 405, first sliding sleeve, 406, first sliding rod, 407, second electric push rod, 408, first tripod, 409, first connecting plate, 4010, first separating thorn plate, 4011, second separating thorn plate, 4012, second connecting plate, 4013, second tripod, 4014, third electric push rod, 4015, second underframe, 4016, second sliding sleeve, 4017, second sliding rod, 4018, fourth electric push rod, 4019, cutting table, 4020, second driving wheel, 4021, baffle plate, 501, stepping motor, 502, third driving wheel, 503, fourth driving wheel, 504, fifth electric push rod, 505, fifth driving wheel, 506, second conveyor belt, 507. a sixth transmission wheel 508, a seventh transmission wheel 509, an eighth transmission wheel 601, a ninth transmission wheel 602, a first bevel gear 603, a second bevel gear 604, a first column gear 605, an inner gear ring 606, a third coupling plate 607, a sixth electric putter 608, a second column gear 609, a tenth transmission wheel 6010, an eleventh transmission wheel 6011, a flat gear 6012, a third column gear 6013, a fourth coupling plate 6014, a steering frame 6015, a seventh electric putter 701, an eighth electric putter 702, a fixed fork plate 703, a fixed frame 704, a limiting plate 705, a cutting bottom plate 706, a first coupling rod 707, a second coupling rod 708, a ninth electric putter 709, a cambered surface cutting disc 7010, a first coupling rack 7011, a second coupling rack 7012, a twelfth transmission wheel 7013, a first storage compartment 7014, a second storage compartment 401901, a third bevel gear, 401902, a fourth bevel gear, 401903, a thirteenth driving wheel, 401904, a fourteenth driving wheel, 401905, a disc, 401906, a third connecting rod, 401907, a sliding plate, 401908, a sliding rail, 401909, a cutting saw blade, 401910 and a supporting base plate.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for illustrative purposes and are not intended to limit the scope of the present application. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

Example 1

A processing device for biological enzyme raw materials is shown in figures 1-6 and comprises a working frame plate 1, a control display screen 2, a feeding ladder 3, a cutting mechanism 4, a conveying mechanism 5, a steering mechanism 6 and a seed removing mechanism 7; the side surface of the working frame plate 1 is connected with the control display screen 2 through a supporting seat; a feeding ladder 3 is arranged on one side of the working frame plate 1 far away from the control display screen 2; the working frame plate 1 is connected with the cutting mechanism 4; the working frame plate 1 is connected with a conveying mechanism 5; the working frame plate 1 is connected with a steering mechanism 6; the working frame plate 1 is connected with a seed removing mechanism 7; the cutting mechanism 4 is connected with the conveying mechanism 5; the conveying mechanism 5 is connected with the steering mechanism 6; the conveying mechanism 5 is connected with a seed removing mechanism 7.

When the device is used, the device is horizontally fixed at a position to be used through the working frame plate 1, the device is externally connected with a power supply, an operator allocates the device through the control display screen 2, firstly, the operator places pawpaw to be processed on the first conveying belt 402 through the feeding ladder 3, the stepping motor 501 is started, then, the pawpaw is conveyed into the cutting mechanism 4 through the first conveying belt 402, then, the oval pawpaw is cut into halves by taking the long edge as a cutting line through the cutting mechanism 4, the half pawpaw is placed on the second conveying belt 506 in a state that the flesh of the half pawpaw faces downwards and the peel of the half pawpaw faces upwards, then, the half pawpaw after being cut is conveyed to a specified position through the conveying mechanism 5, the half pawpaw after being cut is all turned into a state that the long edge is parallel to the conveying direction of the second conveying belt 506 through the turning mechanism 6, then, the half pawpaw is moved into the seed removing mechanism 7, the pawpaw seed that half pawpaw below was dug out through deseeding mechanism 7, obtain the papaya pulp and the pawpaw seed of separation, the device has reached and has dug out the pawpaw seed in advance before the emulsion was extracted with pawpaw, and then the pawpaw seed of collection can be handled and make the pharmacy after, make the pawpaw obtain the utilization of at utmost, and the purity of the emulsion of extracting from the pawpaw improves greatly, the impurity that the papain that makes and prepare contains reduces, the activity of enzyme risees, and then the protease quality of production obtains very big promotion.

The cutting mechanism 4 comprises a first driving wheel 401, a first conveyor belt 402, a first electric push rod 403, a first base frame 404, a first sliding sleeve 405, a first sliding rod 406, a second electric push rod 407, a first triangular frame 408, a first connecting plate 409, a first separation thorn plate 4010, a second separation thorn plate 4011, a second connecting plate 4012, a second triangular frame 4013, a third electric push rod 4014, a second base frame 4015, a second sliding sleeve 4016, a second sliding rod 4017, a fourth electric push rod 4018, a cutting table 4019, a second driving wheel 4020 and a baffle 4021; the axle center of the first driving wheel 401 is in transmission connection with the first conveying belt 402 through a driving rod; a first electric push rod 403 is arranged below the first conveyor belt 402; the first electric push rod 403 is inserted into the first chassis 404; two groups of first sliding sleeves 405 are arranged above the first chassis 404; both first sliding sleeves 405 are in sliding connection with the first sliding bars 406; a second electric push rod 407 and a first tripod 408 are sequentially arranged below the first underframe 404; the first tripod 408 is connected with the first coupling plate 409; the first connecting plate 409 is welded with the first separation thorn plate 4010; a second separation stab plate 4011 is arranged on one side, far away from the first connecting plate 409, of the first separation stab plate 4010; the second separation thorn plate 4011 and the second connection plate 4012 are welded; the upper part of the second connecting plate 4012 is connected with a second tripod 4013; the second tripod 4013 is connected to a third electric putter 4014; the second tripod 4013 and the third electric push rod 4014 are connected with a second underframe 4015; two groups of second sliding sleeves 4016 are arranged above the second underframe 4015; both second sliding sleeves 4016 are in sliding connection with a second sliding bar 4017; the side surface of the second underframe 4015 is spliced with a fourth electric push rod 4018; a baffle 4021 is arranged on the side surface of the first conveyor belt 402; a cutting table 4019 is arranged below the baffle 4021; a second driving wheel 4020 is arranged on the front side of the cutting table 4019; the first driving wheel 401 is connected with the conveying mechanism 5; the first conveyor belt 402 is connected with the work frame plate 1; the first electric push rod 403 is connected with the working frame plate 1; the first slide bar 406 is connected with the working frame plate 1; the second sliding rod 4017 is connected with the working frame plate 1; the fourth electric push rod 4018 is connected with the working frame plate 1; the cutting table 4019 is connected with the working frame plate 1; the second driving wheel 4020 is connected with the conveying mechanism 5; flapper 4021 is connected to frame plate 1.

Firstly, manually placing pawpaw on a first conveyor belt 402, rotationally driving the first conveyor belt 402 through a first driving wheel 401, conveying the pawpaw to a through hole position above a cutting table 4019, further enabling the pawpaw to fall to the cutting table 4019, preventing the pawpaw from deviating from the position by a baffle 4021, further providing power for the cutting table 4019 through a second driving wheel 4020, cutting the oval pawpaw in half by the cutting table 4019 by using a long edge as a cutting line, then continuing to fall downwards after the pawpaw is cut, enabling the cutting plane to be parallel to the falling direction, because mucus is arranged in the pawpaw, the two pawpaw halves are still adhered together after the pawpaw is cut by a sharp knife edge, at the moment, the pawpaw falls onto a first separation thorn plate 4010 and a second separation thorn plate 4011, then starting a first electric push rod 403 and a fourth electric push rod 4018, and the first electric push rod 403 pushes a first underframe 404 to move to the side close to a second underframe 4015, the first sliding sleeve 405 is matched with the movement of the first chassis 404 in a sliding way on the surface of the first sliding rod 406 and plays a supporting role, the fourth electric push rod 4018 pushes the second chassis 4015 to move close to one side of the first chassis 404, the second sliding sleeve 4016 is matched with the movement of the second chassis 4015 in a sliding way on the surface of the second sliding rod 4017 and plays a supporting role, so that the spikes of the first separation stab plate 4010 and the second separation stab plate 4011 are inserted into the interior of the pawpaw, then the first electric push rod 403 and the fourth electric push rod 4018 drive the first separation stab plate 4010 and the second separation stab plate 4011 to separate the two halves of the cut pawpaw, then the second electric push rod 407 is started to push the first triangular support 408, the first connecting plate 409 drives the first separation stab plate 4010 to rotate ninety degrees clockwise, half pawpaws of the first separation stab plate 4010 are turned to pulp downwards, the peel is turned upwards, and then falls onto the second conveyor belt 506, start third electric putter 4014, promote second tripod 4013, make second connecting plate 4012 drive second separation acanthopore plate 4011 anticlockwise rotation ninety degrees, make half the papaya on the second separation acanthopore plate 4011 turn to pulp down equally, the state that the peel is up, and then drop to on the second conveyer belt 506, this mechanism has realized cutting half of papaya.

The conveying mechanism 5 comprises a stepping motor 501, a third driving wheel 502, a fourth driving wheel 503, a fifth electric push rod 504, a fifth driving wheel 505, a second conveyor belt 506, a sixth driving wheel 507, a seventh driving wheel 508 and an eighth driving wheel 509; the stepping motor 501 is rotationally connected with the third driving wheel 502 through an output shaft; the outer annular surface of the third driving wheel 502 is in transmission connection with a fourth driving wheel 503 through a belt; the fourth driving wheel 503 is connected with the fifth electric push rod 504 through a support seat; the outer annular surface of the third driving wheel 502 is in transmission connection with a fifth driving wheel 505 through a belt; the outer annular surface of the fourth driving wheel 503 is in transmission connection with a fifth driving wheel 505 through a belt; the axle center of the fifth driving wheel 505 is in driving connection with the second conveyor belt 506 through a driving rod; the outer annular surface of the fifth driving wheel 505 is in transmission connection with a sixth driving wheel 507 through a belt; the second conveyor belt 506 is in transmission connection with a sixth transmission wheel 507; the outer annular surface of the third driving wheel 502 is in transmission connection with a seventh driving wheel 508 through a belt; the axle center of the seventh driving wheel 508 is rotationally connected with the eighth driving wheel 509 through a driving rod; the stepping motor 501 is connected with the working frame plate 1; the fifth electric push rod 504 is connected with the working frame plate 1; the fifth driving wheel 505 is connected with the first driving wheel 401; the second conveyor belt 506 is connected with the seed removing mechanism 7; the seventh transmission wheel 508 is connected with the steering mechanism 6; the eighth transmission wheel 509 is connected to the second transmission wheel 4020.

When half pawpaw falls onto the second conveyor belt 506 with its pulp facing downwards and its peel facing upwards, the third driving wheel 502 is driven by the stepping motor 501 to rotate, thereby driving the fifth driving wheel 505 to rotate and further driving the sixth driving wheel 507 to rotate, so that the fifth driving wheel 505 and the sixth driving wheel 507 drive the second conveyor belt 506, the half paws are conveyed by the second conveyor belt 506, when the half pawpaw moves to the appointed position, the fifth electric push rod 504 is started, the fourth driving wheel 503 is pulled upwards, the belt between the third driving wheel 502 and the fifth driving wheel 505 is loosened, thereby stopping the rotation of the fifth driving wheel 505, further stopping the operation of the second conveyor belt 506, simultaneously rotating the third driving wheel 502 to drive the seventh driving wheel 508 to rotate, and then drives the eighth transmission wheel 509 to rotate, so as to provide power for the steering mechanism 6, and the mechanism realizes the quick position adjustment of the pawpaw.

The steering mechanism 6 comprises a ninth transmission wheel 601, a first bevel gear 602, a second bevel gear 603, a first column gear 604, an inner gear sleeve 605, a third coupling plate 606, a sixth electric push rod 607, a second column gear 608, a tenth transmission wheel 609, an eleventh transmission wheel 6010, a flat gear 6011, a third column gear 6012, a fourth coupling plate 6013, a steering frame 6014 and a seventh electric push rod 6015; the axis of the ninth driving wheel 601 is rotationally connected with the first bevel gear 602 through a driving rod; the first bevel gear 602 meshes with the second bevel gear 603; the axle center of the second bevel gear 603 is rotationally connected with the first cylindrical gear 604 through a transmission rod; the outer surface of the first cylindrical gear 604 is meshed with the inner gear ring sleeve 605; the inner gear ring sleeve 605 is spliced with the third connecting plate 606; the third connecting plate 606 is inserted into a sixth electric push rod 607; a second column gear 608 is arranged below the first column gear 604; the axle center of the second column gear 608 is rotationally connected with a tenth driving wheel 609 through a driving rod; the outer annular surface of the tenth driving wheel 609 is in driving connection with an eleventh driving wheel 6010 through a belt; the shaft center of the eleventh driving wheel 6010 is rotationally connected with the flat gear 6011 through a driving rod; the spur gear 6011 is meshed with the third column gear 6012; the third column gear 6012 is inserted into the fourth connecting plate 6013; the axle center of the third column gear 6012 is rotationally connected with the steering frame 6014 through a transmission rod; the fourth connecting plate 6013 is inserted into a seventh electric push rod 6015; the ninth driving wheel 601 is connected with the seventh driving wheel 508; the ninth driving wheel 601 is connected with the working frame plate 1 through a supporting seat; the sixth electric push rod 607 is connected with the working frame plate 1; the seventh electric push rod 6015 is connected to the frame plate 1.

When half of the pawpaw is placed with pulp down and peel up and is located below the turning frame 6014, the ninth transmission wheel 601 rotates to drive the first bevel gear 602 to rotate and the first bevel gear 602 is meshed with the second bevel gear 603 to rotate, so as to drive the first column gear 604 to rotate, so that the first column gear 604 is meshed with the inner gear ring sheath 605 to rotate, the sixth electric push rod 607 is started, the inner gear ring sheath 605 is pulled downwards through the third connecting plate 606 to enable the inner gear ring sheath 605 to reach a position where the inner gear ring sheath is meshed with the second column gear 608, at this time, the first column gear 604 rotates to drive the inner gear ring sheath 605 to rotate, so as to drive the second column gear 608 to rotate through the inner gear ring sheath 605, so as to drive the tenth transmission wheel 609 to rotate, so as to drive the eleventh transmission wheel 6010 to rotate, so as to drive the flat gear 6011 to rotate, and further drive the third column gear 6012 to rotate, and then drive turn to frame 6014 and rotate, after turning to frame 6014 and rotating ninety degrees, upwards promote internal tooth ring cover 605, make internal tooth ring cover 605 and second post gear 608 break away from the meshing, and then make turn to frame 6014 stop rotating, start seventh electric putter 6015 this moment, promote fourth linkage plate 6013 downwards, and then drive third post gear 6012 and turn to frame 6014 and move down, and then make turn to frame 6014 cover half papaya, and then make internal tooth ring cover 605 and second post gear 608 mesh, and then make turn to frame 6014 and rotate and drive half papaya and rotate ninety degrees, make half papaya after the cutting turn to the state that the long limit is parallel with second conveyer belt 506 direction of delivery, this mechanism has realized changeing papaya to the state that is convenient for getting rid of the papaya seed.

The seed removing mechanism 7 comprises an eighth electric push rod 701, a fixed fork plate 702, a fixed frame 703, a limit plate 704, a cutting bottom plate 705, a first connecting rod 706, a second connecting rod 707, a ninth electric push rod 708, a cambered surface cutting edge disk 709, a first connecting frame 7010, a second connecting frame 7011, a twelfth driving wheel 7012, a first storage cabin 7013 and a second storage cabin 7014; the eighth electric push rod 701 is inserted into the fixed fork plate 702; a fixing frame 703 is arranged below the fixing fork plate 702; a limiting plate 704 is arranged below the fixing frame 703; a cutting bottom plate 705 is arranged below the limiting plate 704; the cutting bed 705 is in driving connection with a first coupling rod 706; the first coupling rod 706 is in driving connection with the second coupling rod 707; the second coupling rod 707 is inserted into the ninth electric push rod 708; a cambered surface blade disc 709 is arranged below the cutting bottom plate 705; the cambered surface cutting edge disc 709 is welded with the first connecting frame 7010; the first connecting rack 7010 is in transmission connection with the second connecting rack 7011; the second connecting frame 7011 is in transmission connection with a twelfth driving wheel 7012; the cutting deck 705 is connected to the first storage compartment 7013; a second storage cabin 7014 is arranged on the side surface of the first storage cabin 7013; the eighth electric push rod 701 is connected with the working frame plate 1; the fixed mount 703 is connected with the working frame plate 1; the ninth electric push rod 708 is connected with the working frame plate 1; the first connecting rack 7010 is connected with the working rack plate 1; the second connecting rack 7011 is connected with the working rack plate 1; the twelfth driving wheel 7012 is connected to the second conveyor belt 506; the first storage cabin 7013 is connected with the working frame plate 1; the second storage compartment 7014 is connected to the work deck board 1.

When the half cut pawpaw is turned to a state that the long edge is parallel to the conveying direction of the second conveying belt 506, the half pawpaw is continuously conveyed to the cutting bottom plate 705 through the second conveying belt 506, the pawpaw is limited through the cutting bottom plate 705, then the eighth electric push rod 701 is started to push the fixed fork plate 702 to move downwards, so that three groups of fork knives below the fixed fork plate 702 penetrate into the pawpaw to fix the pawpaw, then the second connecting frame 7011 is rotationally driven through the twelfth driving wheel 7012 to further drive the first connecting frame 7010, the cambered blade disc 709 makes a reciprocating arc track motion with a specified angle, the pawpaw seeds below the pawpaw are scraped out through the cambered blade disc 709, and the pawpaw seeds fall into the second storage cabin 7014, when all the pawpaw seeds are not scraped, the fixed fork plate 702 is upwards pulled through the eighth electric push rod 701 to enable the fixed fork plate 702 to drive the pawpaw to move upwards, when the pawpaw moves upwards, the pawpaw is intercepted by the fixed frame 703 and the fixed fork plate 702 continues to move upwards, so that the pawpaw is pulled out from the fixed fork plate 702 and still stays on the cutting bottom plate 705, then the ninth electric push rod 708 is started to push the second coupling rod 707 downwards, the end, connected with the first coupling rod 706, of the cutting bottom plate 705 is pushed downwards through the first coupling rod 706, the end, not connected with the first coupling rod 706, of the cutting bottom plate 705 is lifted upwards, the pawpaw automatically slides downwards into the first storage cabin 7013, and the pawpaw scraping mechanism achieves the scraping of pawpaw seeds in the pawpaw.

The cutting table 4019 comprises a third bevel gear 401901, a fourth bevel gear 401902, a thirteenth driving wheel 401903, a fourteenth driving wheel 401904, a disk 401905, a third connecting rod 401906, a sliding plate 401907, a sliding rail 401908, a cutting saw blade 401909 and a supporting bottom plate 401910; the third bevel gear 401901 meshes with the fourth bevel gear 401902; the axle center of the fourth bevel gear 401902 is rotationally connected with a thirteenth driving wheel 401903 through a driving rod; the outer annular surface of the thirteenth driving wheel 401903 is in driving connection with the fourteenth driving wheel 401904 through a belt; the axle center of the fourteenth driving wheel 401904 is rotationally connected with the disc 401905 through a driving rod; the disc 401905 is in transmission connection with a third connecting rod 401906; the third connecting rod 401906 is in transmission connection with the sliding plate 401907; the sliding plate 401907 is connected with the sliding rail 401908 in a sliding way; the slide 401907 is welded to the cutting saw blade 401909; the slide rail 401908 is welded with the support bottom plate 401910; the fourteenth driving wheel 401904 is connected with the supporting bottom plate 401910 through a supporting seat; the third bevel gear 401901 is connected with the second driving wheel 4020; the support floor 401910 is connected to the workframe plate 1.

When papaya drops to cutting saw edge 401909 on, rotate through third bevel gear 401901 meshing fourth bevel gear 401902, and then drive thirteenth drive wheel 401903 and rotate, and then drive fourteenth drive wheel 401904 and rotate, and then drive disc 401905 and rotate, and then transmission third coupling rod 401906, promote slide 401907 through third coupling rod 401906 and make a round trip to slide in slide rail 401908, and then drive cutting saw edge 401909 and cut papaya half and half, supporting baseplate 401910 plays the supporting role to whole, this mechanism has realized cutting papaya half.

The steering frame 6014 is a rectangular parallelepiped recess with the notch facing downward.

The shape of laminating papaya covers the back with papaya and drives papaya and turn to the state of being convenient for get rid of the papaya seed.

Below the fixed yoke plate 702 are three sets of yokes, and the middle set is shorter in length than the two sets beside.

The shape of laminating papaya ellipsoid realizes the fixed to papaya.

The upper surface of the arc-surface blade disc 709 is an arc surface.

The cambered surface blade disc 709 can be attached to the joint of the pawpaw seeds and the pawpaw, so that the pawpaw seeds can be completely removed.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims

1. A processing device for biological enzyme raw materials comprises a working frame plate, a control display screen and a feeding ladder; the method is characterized in that: the device also comprises a cutting mechanism, a conveying mechanism, a steering mechanism and a seed removing mechanism; the side surface of the working frame plate is connected with the control display screen through a supporting seat; a feeding ladder is arranged on one side of the working frame plate, which is far away from the control display screen; the working frame plate is connected with the cutting mechanism; the working frame plate is connected with the conveying mechanism; the working frame plate is connected with a steering mechanism; the working frame plate is connected with the seed removing mechanism; the cutting mechanism is connected with the conveying mechanism; the conveying mechanism is connected with the steering mechanism; the conveying mechanism is connected with the seed removing mechanism;

2. The processing device of biological enzyme raw material according to claim 1, wherein the steering mechanism comprises a ninth transmission wheel, a first bevel gear, a second bevel gear, a first column gear, an inner gear sleeve, a third linkage plate, a sixth electric push rod, a second column gear, a tenth transmission wheel, an eleventh transmission wheel, a flat gear, a third column gear, a fourth linkage plate, a steering frame and a seventh electric push rod; the axis of the ninth driving wheel is rotationally connected with the first bevel gear through a driving rod; the first bevel gear is meshed with the second bevel gear; the second bevel gear hub is rotationally connected with the first cylindrical gear through a transmission rod; the outer surface of the first column gear is meshed with the inner gear sleeve; the inner gear ring sleeve is spliced with the third connecting plate; the third connecting plate is inserted with a sixth electric push rod; a second column gear is arranged below the first column gear; the gear core of the second column is rotationally connected with the tenth driving wheel through a driving rod; the outer ring surface of the tenth driving wheel is in transmission connection with the eleventh driving wheel through a belt; the axis of the eleventh transmission wheel is rotationally connected with the flat gear through a transmission rod; the flat gear is meshed with the third column gear; the third column gear is inserted with the fourth connecting plate; the third column gear shaft core is rotationally connected with the steering frame through a transmission rod; the fourth connecting plate is inserted with a seventh electric push rod; the ninth driving wheel is connected with the seventh driving wheel; the ninth driving wheel is connected with the working frame plate through a supporting seat; the sixth electric push rod is connected with the working frame plate; the seventh electric push rod is connected with the working frame plate.

3. The processing device of a biological enzyme material according to claim 2, wherein the seed removing mechanism comprises an eighth electric push rod, a fixed fork plate, a fixed frame, a limiting plate, a cutting bottom plate, a first connecting rod, a second connecting rod, a ninth electric push rod, a cambered surface cutting edge disc, a first connecting frame, a second connecting frame, a twelfth driving wheel, a first storage cabin and a second storage cabin; the eighth electric push rod is inserted into the fixed fork plate; a fixing frame is arranged below the fixed fork plate; a limiting plate is arranged below the fixing frame; a cutting bottom plate is arranged below the limiting plate; the cutting bottom plate is in transmission connection with the first connecting rod; the first connecting rod is in transmission connection with the second connecting rod; the second connecting rod is inserted with the ninth electric push rod; a cambered surface blade disc is arranged below the cutting bottom plate; the cambered surface cutting edge disc is welded with the first connecting frame; the first connecting frame is in transmission connection with the second connecting frame; the second connecting frame is in transmission connection with a twelfth driving wheel; the cutting bottom plate is connected with the first storage cabin; a second storage cabin is arranged on the side surface of the first storage cabin; the eighth electric push rod is connected with the working frame plate; the fixed frame is connected with the working frame plate; the ninth electric push rod is connected with the working frame plate; the first connecting frame is connected with the working frame plate; the second connecting frame is connected with the working frame plate; the twelfth driving wheel is connected with the second conveyor belt; the first storage cabin is connected with the working frame plate; the second storage compartment is connected with the working frame plate.

4. The processing device of claim 3, wherein the cutting table comprises a third bevel gear, a fourth bevel gear, a thirteenth driving wheel, a fourteenth driving wheel, a disc, a third connecting rod, a sliding plate, a sliding rail, a cutting saw blade and a supporting bottom plate; the third bevel gear is meshed with the fourth bevel gear; the axle center of the fourth bevel gear is rotationally connected with a thirteenth driving wheel through a transmission rod; the outer ring surface of the thirteenth driving wheel is in transmission connection with the fourteenth driving wheel through a belt; the shaft center of the fourteenth driving wheel is rotationally connected with the disc through a driving rod; the disc is in transmission connection with the third connecting rod; the third connecting rod is in transmission connection with the sliding plate; the sliding plate is connected with the sliding rail in a sliding manner; the sliding plate is welded with the cutting saw blade; the sliding rail is welded with the supporting bottom plate; the fourteenth driving wheel is connected with the supporting bottom plate through a supporting seat; the third bevel gear is connected with the second transmission wheel; the supporting bottom plate is connected with the working frame plate.

5. The apparatus of claim 4, wherein the turning frame is a rectangular parallelepiped with a groove and the groove is downward.

6. The apparatus of claim 5, wherein three sets of fork knives are arranged below the fixed fork plate, and the middle set is shorter than the two sets.

7. The apparatus of claim 6, wherein the top surface of the cambered cutting edge disc is a circular arc surface.